SU1177648A1 - Electrohydrodynamic heat tube - Google Patents

Abstract

1. ELECTROHYDRODYNAMIC HEAT PIPE containing a hermetically sealed cylindrical body partially filled with dielectric coolant, part of the walls of which is made of alternating dielectric sections and electrode sections connected to a high-voltage current source, characterized in that, in order to expand the functionality by means of a potential redistribution when the heat load changes inside the pipe, each section of the electrode is made double-layer with dielectric a layer whose electrical resistance decreases with increasing temperature, the electrode section of the electrode is connected to its current layers with its outer layers, and the dielectric sections of the housing walls are made of highly heat-conducting material. 2. Pipe POP.1, characterized in that the inner layers of the electrode sections are made of a porous material. 3. A pipe according to claim 1, in accordance with the fact that the dielectric portions of the body walls are made of bershish ceramics. 4. A pipe according to claim 1, characterized in that the dielectric layers are made of plasticized polyvinyl chloride or thermoplastic polyester resin. Od 4 00

Description

The invention relates to heat engineering, namely to heat pipes with a dielectric coolant. The purpose of the invention is to expand the functionality by providing an automatic redistribution of potential within the pipes when the thermal load changes. The drawing schematically shows an electrohydrodynamic heat pipe, a longitudinal section. The pipe contains Koprtyc 1, part of the walls of which is made of alternating dielectric sections 2 and sections 3 of the electrode connected to the high voltage source 4 current. Each section 3 is made of two layers 5 and 6 — inner and outer, respectively, with a dielectric layer 7 between them, and the electrical resistance of the interlayer material decreases with increasing temperature (for example, plastic polyvinyl chloride or thermoplastic polyester can be chosen as the material). resin). To the current source 4, section 3 of the electrode is connected by its outer layers 6. The dielectric portions of the wall of the housing 1 are made of high thermal conductivity material (for example, beryllium ceramics). Besides. The inner layers 5 of sections 3 are made of porous material and are located on the inner surface of the housing 1. The heat pipe works as follows. When heat is supplied and removed in the respective zones, heat and mass transfer is carried out through the pipe with a change in the state of aggregation of the heat transfer medium. Accordingly, the electrical resistance of the walls of the housing 1 varies. In the heat supply zone, the temperature of the wall of the housing 1 is higher than in the heat removal zone and, consequently, the electrical resistance of the interlayers 7 is lower, which means that inside the housing 1 the potential of the layers 5 of the electrode sections 3 is higher than the potential of the corresponding sections in the heat removal zone. For this reason, the condensate of the coolant is condensed into. heat supply area. In the event that the heat load changes (either in time or moves along the pipe body 1) in this section of the wall of the housing 1, a corresponding redistribution of potential and an increase (or decrease) in the coolant condensate inflow to this area occur.

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Claims (4)

1. ELECTROHYDRODYNAMIC HEAT PIPE containing a sealed cylindrical body partially filled with a dielectric coolant, part of the walls of which are made of alternating dielectric sections and electrode sections connected to a high voltage current source, characterized in that, in order to expand the functionality by providing automatic redistribution of potential inside pipes when the heat load changes, each section of the electrode is made two-layer with a dielectric interlayer a cell whose electrical resistance decreases with increasing temperature, and the electrode sections are connected to their current source by their outer layers, and the dielectric sections of the walls of the housing are made of highly heat-conducting material. 2. Pipe pop.1 differing u and I with I in that the internal electrode layers formed of porous sections _of the same material. S 3. The pipe according to π. 1, with the fact that the dielectric sections of the walls of the housing are made of beryllium ceramics. 4. Trumpet pop. 1, characterized in that the dielectric interlayers are made of plasticized polyvinyl chloride or thermoplastic polyester resin. „.1177648 1177648 2